No abstract available.
Animals, Laboratory

Laboratory animals and animal experiments are foundations and important support conditions for life sciences, especially for medical research. The animal experiments have drawn extensive attention from the society because of the ethical issue. This paper takes Wenzhou Medical University as an example to give a brief introduction to the ethical review about laboratory animals in the university so as to further draw attention and concerns from the public about the ethical issue of laboratory animals. We successively introduce its scientific projects, nurturing environment and ethical review of laboratory animals.
Animal Experimentation ; ethics ; Animals ; Animals, Laboratory ; Universities

G-protein–coupled receptors (GPCRs) are one of the most attractive therapeutic target classes because of their critical roles in intracellular signaling and their clinical relevance to a variety of diseases, including cancer, infection and inflammation. However, high conformational variability, the small exposed area of extracellular epitopes and difficulty in the preparation of GPCR antigens have delayed both the isolation of therapeutic anti-GPCR antibodies as well as studies on the structure, function and biochemical mechanisms of GPCRs. To overcome the challenges in generating highly specific anti-GPCR antibodies with enhanced efficacy and safety, various forms of antigens have been successfully designed and employed for screening with newly emerged systems based on laboratory animal immunization and high-throughput-directed evolution.
Animals, Laboratory ; Antibodies* ; Epitopes ; Immunization ; Inflammation ; Mass Screening

Natural orifice translumenal endoscopic surgery (NOTES) involves the intentional perforation of the viscera with an endoscope to access the abdominal cavity and perform an intraabdominal operation. In a brief time period, NOTES has been shown to be feasible in laboratory animal and human studies. Easy access to the peritoneal cavity and complete gastric closure should be secured before NOTES can be recommended as an acceptable alternative in clinical practice. The concept of submucosal endoscopy has been introduced as a solution to overcome these two primary barriers to human NOTES application. Its offset entry/exit access method effectively prevents contamination and allows the rapid closure of the entry site with a simple mucosal apposition. In addition, it could be used as an endoscopic working space for various submucosal conditions. Herein, the detailed procedures, laboratory results and human application of the submucosal endoscopy will be reviewed.
Abdominal Cavity ; Animals, Laboratory ; Endoscopes ; Endoscopy ; Humans ; Peritoneal Cavity ; Viscera

BACKGROUND AND OBJECTIVES: The aim of this study was to investigate the value of microbubble destruction using low-frequency ultrasound for enhancing gene delivery to skeletal muscles of laboratory animals. MATERIALS AND METHODS: Lac-Z gene was injected into 21 mouse anterior tibialis muscles. Seven muscles received the gene only, and seven each received either 20-kHz ultrasound exposure or ultrasound-PESDA (perfluorocarbon-exposed sonicated albumin) destruction, respectively, following the injection; the extent of Lac-Z expression was then compared. Luciferase gene was injected into the muscles (N=80). The muscles were divided into two groups according to the mixture; in the first group saline was used as the mixture solute, with PESDA used in the second group. The groups were subdivided into two groups, one receiv 10 seconds of ultrasound at the injection site after injection, and the other that received no further intervention. Luciferase activities were measured and compared. RESULTS: The proportions of Lac-Z stained cells were 0, 5.7+/-1.2 and 7.7+/-1.7%, respectively, showing a significant stepwise increase microbubble destruction (p<0.05). Luciferase activities were as follows: Luciferase only (Group 1, N=17), 5727+/-2178 RLU/mg; luciferase plus PESDA (Group 2, N=17), 1170+/-470.7 RLU/mg; luciferase plus ultrasound (Group 3, N=17), 16480+/-5239 RLU/mg; and luciferase plus PESDA destruction (Group 4, N=17), 49910+/-16500 RLU/mg. The activity in group 4 was significantly higher than in group 1 (p<0.01), showing an 8.7-fold increase in gene delivery due to microbubble destruction. CONCLUSION: Microbubble destruction using low-frequency ultrasound is an efficient method for increasing the efficacy of direct gene delivery to skeletal muscles.
Animals ; Animals, Laboratory ; Genetic Therapy ; Luciferases ; Mice* ; Microbubbles* ; Muscle, Skeletal* ; Muscles ; Ultrasonography*

The humane care and use of animals should be the prime concern and responsibility of all those individuals using animals for research, teaching or testing. The use of animals as experimental subjects in the 20th century has contributed to many important advances in scientific and medical knowledge. Although scientists have also developed non-animal models for research, these models often cannot completely mimic the complex human or animal body. Nevertheless, efforts to develop and use scientifically valid alternatives, adjuncts, and refinements to animal research should continue. Laboratory Animal Law that was prepared to improve the reliability and reproducibility of research data using laboratory animals also required an institutes to care and use animal in ways judged to be scientifically, technically, and humanely appropriate. The law introduced Assessment Program of Good Animal Care and Use Facility. The primary goal of the Assessment Program is to provide quality assurance for the care and use of experimental animals on a national basis. Although, an effective surveillance protects animals, promotes animal welfare and ensures the quality of science that uses animals, it is the responsibility of investigators to conduct animal experiment on the basis of the highest scientific, humane, and ethical principles. It is expected that the Program will accelerate the introduction of mind concerning humane and ethical animal experiment and will enhance animal well-being, the quality of biomedical research, and the advancement of biologic knowledge that is relevant to humans or animals.
Academies and Institutes ; Animal Experimentation ; Animal Welfare ; Animals ; Animals, Laboratory ; Humans ; Hydrazines ; Jurisprudence ; Research Personnel

This report describes rodents in a laboratory animal facility that was adversely affected by a noisy environment during construction work. There was much noise and vibration as well as dust caused by the drilling and hammering. The noise levels, frequencies, and length of time when occurring in the drilling and hammering, were all measured. The drilling showed noise levels ranging from 50-90 decibels (dB) (A-filter, A), and the hammering presented 60-70 dB (A). Some researchers raised problems regarding animal experiments, including skin injuries resulted from self-mutilation, and increase of mortality. This gives useful information to people who plan to renovate laboratory animal facilities as it is a very rare case.
Animal Experimentation ; Animal Welfare ; Animals ; Animals, Laboratory ; Dust ; Mandrillus ; Mice ; Noise ; Rats ; Rodentia ; Skin ; Vibration

There are many limitations for conducting liver disease research in human beings due to the high cost and potential ethical issues. For this reason, conducting a study that is difficult to perform in humans using appropriate animal models, can be beneficial in ascertaining the pathological physiology, and in developing new treatment modalities. However, it is difficult to determine the appropriate animal model which is suitable for research purposes, since every patient has different and diverse clinical symptoms, adverse reactions, and complications due to the pathological physiology. Also, it is not easy to reproduce identically various clinical situations in animal models. Recently, the Guide for the Care and Use of Laboratory Animals has tightened up the regulations, and therefore it is advisable to select the appropriate animals and decide upon the appropriate quantities through scientific and systemic considerations before conducting animal testing. Therefore, in this review article the authors examined various white rat animal testing models and determined the appropriate usable rat model, and the pros and cons of its application in liver disease research. The authors believe that this review will be beneficial in selecting proper laboratory animals for research purposes.
Animals ; Animals, Laboratory ; Humans ; Liver ; Liver Diseases ; Models, Animal ; Rats ; Social Control, Formal

BACKGROUND: Laboratory animal workers who are in regular contact with furred animals commonly develop laboratory animal allergy (LAA). LAA is one of the most common occupational allergic diseases. OBJECTIVES: This study was performed to estimate the prevalence of sensitization and symptoms of LAA, and to determine important host factors for the development of LAA. METHOD: Sixteen subjects with laboratory animal workers in one medical research center were enrolled in this study. They responded to a questionnaire about work-related symptoms and underwent allergy skin prick test to common inhalant and laboratory animal allergens. RESULTS: The prevalence of sensitization to laboratory animal allergens was 18.8%, and all sensitized workers were atopic (positive skin reactivity to one or more common inhalant allergens). Prevalence rate of allergy symptoms caused by working with laboratory animals was 31.3%. Positive skin prick responses to dog or cat allergens were highly associated with specific sensitization to laboratory animal allergens, and positive skin responses to laboratory animal allergens were associated with laboratory allergy symptoms. Among sixteen subjects, we found out one case of occupational asthma due to mouse allergy and also reported the case here. CONCLUSION: Some laboratory animal workers showed sensitization to laboratory animal allergens and had allergic symptoms attributed to contact with laboratory animals. Atopy, especially atopy to dogs or cats may be an important host factor for the development of LAA.
Allergens ; Animals ; Animals, Laboratory* ; Asthma, Occupational ; Cats ; Dogs ; Hypersensitivity* ; Mice ; Prevalence ; Skin ; Surveys and Questionnaires

The aims of this article is to review the current knowledge on the role of cytokines in depression by discussing the brain action of cytokines, their role in the stress response, their relationship to depression, and their sensitivity of antidepressant treatment. From the data that are reviewed, several important points emerge: 1) Cytokines administered to patients and laboratory animals induce symptoms of depression, including, depressed mood, anhedonia, reduced food intake, sleep disorder, hyperactivity of HPA axis, and glucocorticoid resistance; 2) Stress-induced cytokine secretion may be responsible for the induction of depressive symptoms. 3) Antidepressants have anti-inflammatory properties and interfere with cytokine production and action. 4) Cytokine antagoinists may attenuate the symptoms of depression. The cytokine model in depression may play a crucial role in the etiology and psychopathology of depression.
Anhedonia ; Animals, Laboratory ; Antidepressive Agents ; Axis, Cervical Vertebra ; Brain ; Cytokines* ; Depression ; Eating ; Humans ; Neurotransmitter Agents ; Psychopathology